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16 June 2004 Small signal gain time behavior on high vibrational transitions (V>15) of pulsed CO laser amplifier
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Proceedings Volume 5479, Laser Optics 2003: High-Power Gas Lasers; (2004)
Event: Laser Optics 2003, 2003, St. Petersburg, Russian Federation
Small-signal gain time behavior for a pulsed e-beam sustained discharge CO laser amplifier operating on fundamental band vibrational transitions V → V-1 from 6 → 5 (λ ~ 5.0 μm) up to 32 → 31 (λ~7.5 μm) was studied both experimentally and theoretically at various parameters of active medium. Special attention was paid to the small-signal gain time behavior on high vibrational transitions (V > 15). As was previously shown by us, multi-quantum theoretical model of vibrational exchange has to be applied for a correct description of a CO laser operating on vibrational transitions V → V-1 with V higher than 15 instead of a single-quantum one. To make easier theoretical interpretation of the experimental results, the binary nitrogen free gas mixture CO:He = 1:4 was used in our experiments. Total gas density and initial gas temperature was 0.12 Amagat and ~100 K, respectively. The complete kinetic model of a CO laser taking into account multi-qauntum vibrational exchange was employed for theoretical description of the small-signal gain time behavior. The theoretical results were compared with the experimental data.
© (2004) COPYRIGHT Society of Photo-Optical Instrumentation Engineers (SPIE). Downloading of the abstract is permitted for personal use only.
Andrei A. Ionin, Yurii M. Klimachev, Andrei A. Kotkov, Dmitrii V. Sinitsyn, Leonid V. Seleznev, S. Vetoshkin, A. Yu. Kozlov, O. Rulev, Anatolii P. Napartovich, Alexander K. Kurnosov, and Sergei Shnyrev "Small signal gain time behavior on high vibrational transitions (V>15) of pulsed CO laser amplifier", Proc. SPIE 5479, Laser Optics 2003: High-Power Gas Lasers, (16 June 2004);


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